Flexible package fitments for use with detachable dispensing systems are provided. Pouring spout fitments configured to be attached to the inner surface of flexible containers are also provided. The detachable dispensing systems and pouring spout fitments include a hollow rigid member (115) and an extendible spout (121) disposed within and at least partially attached to the hollow rigid member and selectively positionable between a recessed position and, alternatively, an extended position, in which the extendible spout is configured to dispense a pourable material from the container through a distal opening when the fitment is attached to a flexible package. Material containers are also provided that include the fitments described herein.

The present disclosure provides a fitment. In an embodiment, the fitment includes a top portion, a base, and a channel extending through the top portion and the base for passage of a flowable material. The fitment is composed of a polymeric composition. The polymeric composition comprises: (i) from 60 weight % to 90 weight % of a propylene-based polymer having a density of 0.900 g/cc and a melt flow rate greater than 10.0 g/10 min; and (ii) from 40 weight % to 10 weight % of a propylene-based plastomer or elastomer (“PBPE”) having a density less than 0.900 g/cc, and a melt flow rate (MFR) from 5 g/10 min to 30 g/10 min. The present disclosure also provides a process for sealing multilayer films to the base of the fitment and the resultant flexible container formed from the process.

A present application relates to a valve assembly for use with a liquid container. The valve assembly includes a spout containing an opening to the liquid container, the spout being configured to form a liquid-tight seal with a housing. A sleeve extends through the housing toward the liquid container through the opening. A valve is secured to the housing and extending into the opening through the sleeve and forming a liquid-tight seal with the sleeve. The valve includes a body portion with a cutaway section and a leg fixed to the valve by a hinge, wherein the leg is configured to flex outwards against the sleeve upon insertion of a tube into the valve causing the cutaway section to open a flow channel to allow liquid to flow through the valve assembly.

A gusseted stand-up flexible pouch including a pouch-forming structure. The pouch-forming structure including first and second body panels, first and second side gussets, a bottom gusset and at least one interior gusset. The bottom gusset extends between the first and second body panels. Each of the first and second side gussets is joined to the first and second body panels. The at least one interior gusset is joined to the first and second body panels. The at least one interior gusset is located between the first and second side gussets. The at least one interior gusset divides an interior of the stand-up flexible pouch into a plurality of compartments.

A filling bag with good thermal insulation and anti-collision performance and a manufacturing method thereof. The filling bag includes a sealed bag body and a filling tube head, and the sealed bag body includes a substrate layer and at least one thin film layer. At least one side of the substrate layer is provided with a mesh adhesive layer, and the thin film layer is compounded with the substrate layer through the mesh adhesive layer, so that a plurality of bubble cavities are formed between the substrate layer and the thin film layer. The bubble cavities are filled with gas. The thin film layer is compounded on the side of the sealed bag body to form a layer with dense bubble cavities filled with gas, a gas insulation interlayer is formed on the side of the sealed bag body, which has good thermal insulation effect.

The present invention is a self-standing spout-equipped packaging bag (1), including a bag body (10) that stores contents, and a spout (12) that is attached to an upper portion of the bag body (10). The bag body (10) includes a tubular barrel portion (20), and a bottom portion (22) which is attached to block an opening end of a lower part of the barrel portion (20). The spout (12) includes a tubular nozzle portion (14), and a flange portion (16) which projects from an outer surface of the nozzle portion (14). An upper end part (21) of the tubular barrel portion (20) over an entire circumference is liquid-tightly adhered to an upper surface (16e) of the flange portion (16) in a state of following a shape of the flange portion (16) in plan view to be in the same shape.

A cartridge assembly for deploying a fillable bulk liquid bag in an intermediate bulk container is provided. The cartridge has a flexible reinforcing board adhered to the fillable bag which may facilitate securing the bag to the discharge port of an IBC while also directing the bag to the IBC bottom center for more efficient filling. Sacrificial paper tape may be used to maintain the cartridge for storage, transportation and deployment in an IBC.

A system for holding multiple beverage containers may include a cooler or carrier with toting handles, closing tabs, and base. The base may be formed from a molded plastic, rubber or synthetic rubber material. The base may also include feet that hold the base a sufficient height from the ground. The base may have a generally conic tapering drain floor that makes up its top surface. The tapering drain floor may make draining the carrier easier by directing water toward a drain hole located in the base. Extending up from the base may be a multi-layer soft-sided wall where different layers perform different desired functions. For example, an inside layer closest to the internal cavity may be a waterproof layer, a middle layer may be an insulating layer, and an external layer may be a decorative layer.

A present application relates to a dispensing component for use with an urn liner. The dispensing component includes a spout formed of a polyethylene material and a flexible tube formed of a thermoplastic elastomer material. The spout and tube are formed together as a single component in a mold by co-injection of the polyethylene material and the thermoplastic elastomer material.

A method of producing a container for retaining fluid, the method comprises the steps of: providing a blank which, when assembled, forms a container; folding the blank along one or more fold lines across the blank's width to form a substantially rectangular side wall such that first and second ends of the substantially rectangular side wall are brought into close proximity; sealing the first and second ends of the substantially rectangular side wall to one another; deforming one or more deformable portions which span across the one or more fold lines such that the deformable portions are disposed inwardly in order to force the remainder of the side wall outwards to create an opening within the blank; and sealing a base around the circumference of a first edge of the side wall.